Your search keyword '"cellular tropism"' showing total 26 results

1. SARS-CoV-2 variant of concern fitness and adaptation in primary human airway epithelia

Author

Meganck, Rita M., Edwards, Caitlin E., Mallory, Michael L., Lee, Rhianna E., Dang, Hong, Bailey, Alexis B., Wykoff, Jason A., Gallant, Samuel C., Zhu, Deanna R., Yount, Boyd L., Kato, Takafumi, Shaffer, Kendall M., Nakano, Satoko, Cawley, Anne Marie, Sontake, Vishwaraj, Wang, Jeremy R., Hagan, Robert S., Miller, Melissa B., Tata, Purushothama Rao, Randell, Scott H., Tse, Longping V., Ehre, Camille, Okuda, Kenichi, Boucher, Richard C., and Baric, Ralph S.

Published

2024

2. Tropism and immune response of chikungunya and zika viruses: An overview

Author

Ravindran, Shilpa and Lahon, Anismrita

Published

2023

3. AIP56, an AB toxin secreted by Photobacterium damselae subsp. piscicida, has tropism for myeloid cells

Author

Inês Lua Freitas, Maria Fátima Macedo, Liliana Oliveira, Pedro Oliveira, Ana do Vale, and Nuno M.S. dos Santos

Subjects

photobacteriosis, virulence factor, toxins, cellular tropism, leukocytes, macrophages, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionThe AB-type toxin AIP56 is a key virulence factor of Photobacterium damselae subsp. piscicida (Phdp), inducing apoptosis in fish immune cells. The discovery of AIP56-like and AIP56-related toxins in diverse organisms, including human-associated Vibrio strains, highlights the evolutionary conservation of this toxin family, suggesting that AIP56 and its homologs may share conserved receptors across species. These toxins have potential for biotechnological applications, such as therapeutic protein delivery and immune modulation.MethodsHerein, the cell specificity of AIP56 for immune cells was characterized. The tropism of AIP56 for cells of the sea bass, mouse and human immune system was analyzed by following toxin internalization by flow cytometry and arrival of the toxin in the cytosol by evaluating the cleavage of NF-kB p65 by western blotting.ResultsOnly a small population of sea bass neutrophils internalized AIP56, indicating that most of the neutrophilic destruction during Phdp infection and/or AIP56 intoxication does not result from the direct action of the toxin. Moreover, the cellular tropism of AIP56 for myeloid cells was observed in the three species, including its preference for macrophages. Further, mouse and human M0 and M2-like macrophages internalized more toxin than M1-like macrophages. Despite the limited interaction of lymphoid cells with AIP56, mouse B1-cells were able to internalize the toxin, possibly due to its myeloid features.ConclusionAIP56 has tropism for sea bass, mouse and human myeloid cells, with greater affinity for macrophages. This points to an evolutionary conservation of its receptor(s) and mechanism of action across species, raising the possibility that AIP56-like and -related toxins may also play a role in pathogenesis. These findings are relevant for both pathogenicity and biomedical contexts.

Published

2025

4. Transcriptional profiling of zebrafish intestines identifies macrophages as host cells for human norovirus infection

Author

Emma Roux, Reegan J. Willms, Jana Van Dycke, Álvaro Cortes Calabuig, Lore Van Espen, Geert Schoofs, Jelle Matthijnssens, Johan Neyts, Peter de Witte, Edan Foley, and Joana Rocha-Pereira

Subjects

Human norovirus, cellular tropism, macrophages, intestinal epithelium, host cell identification, host-virus interaction, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Human noroviruses (HuNoVs) are a major cause of diarrheal disease, yet critical aspects of their biology, including cellular tropism, remain unclear. Although research has traditionally focused on the intestinal epithelium, the hypothesis that HuNoV infects macrophages has been recurrently discussed and is investigated here using a zebrafish larval model. Through single-cell RNA sequencing of dissected zebrafish intestines, we unbiasedly identified macrophages as host cells for HuNoV replication, with all three open reading frames mapped to individual macrophages. Notably, HuNoV preferentially infects actively phagocytosing inflammatory macrophages. HuNoV capsid proteins and double-stranded RNA colocalized within intestinal macrophages of infected zebrafish larvae, and the negative-strand RNA intermediate was detected within FACS-sorted macrophages. Flow cytometry confirmed viral replication within these macrophages, constituting approximately 23% of HuNoV’s host cells. Identifying macrophages as host cells prompts a reevaluation of their role in HuNoV pathogenesis, offering new directions for understanding and controlling this infection.

Published

2024

5. A novel mouse model for investigating α-synuclein aggregates in oligodendrocytes: implications for the glial cytoplasmic inclusions in multiple system atrophy.

Author

Ishimoto, Tomoyuki, Oono, Miki, Kaji, Seiji, Ayaki, Takashi, Nishida, Katsuya, Funakawa, Itaru, Maki, Takakuni, Matsuzawa, Shu-ichi, Takahashi, Ryosuke, and Yamakado, Hodaka

Subjects

*MULTIPLE system atrophy, *OLIGODENDROGLIA, *ALPHA-synuclein, *LABORATORY mice, *ANIMAL disease models, *FLUORESCENT proteins, *CELL aggregation

Abstract

The aggregated alpha-synuclein (αsyn) in oligodendrocytes (OLGs) is one of the pathological hallmarks in multiple system atrophy (MSA). We have previously reported that αsyn accumulates not only in neurons but also in OLGs long after the administration of αsyn preformed fibrils (PFFs) in mice. However, detailed spatial and temporal analysis of oligodendroglial αsyn aggregates was technically difficult due to the background neuronal αsyn aggregates. The aim of this study is to create a novel mouse that easily enables sensitive and specific detection of αsyn aggregates in OLGs and the comparable analysis of the cellular tropism of αsyn aggregates in MSA brains. To this end, we generated transgenic (Tg) mice expressing human αsyn-green fluorescent protein (GFP) fusion proteins in OLGs under the control of the 2', 3'-cyclic nucleotide 3'-phosphodiesterase (CNP) promoter (CNP-SNCAGFP Tg mice). Injection of αsyn PFFs in these mice induced distinct GFP-positive aggregates in the processes of OLGs as early as one month post-inoculation (mpi), and their number and size increased in a centripetal manner. Moreover, MSA-brain homogenates (BH) induced significantly more oligodendroglial αsyn aggregates than neuronal αsyn aggregates compared to DLB-BH in CNP-SNCAGFP Tg mice, suggestive of their potential tropism of αsyn seeds for OLGs. In conclusion, CNP-SNCAGFP Tg mice are useful for studying the development and tropism of αsyn aggregates in OLGs and could contribute to the development of therapeutics targeting αsyn aggregates in OLGs. [ABSTRACT FROM AUTHOR]

Published

2024

6. Single-cell profiling of African swine fever virus disease in the pig spleen reveals viral and host dynamics.

Author

Zixiang Zhu, Ruoqing Mao, Baohong Liu, Huanan Liu, Zhengwang Shi, Kunpeng Zhang, Huisheng Liu, Danyang Zhang, Jia Liu, Zhenxiang Zhao, Kangli Li, Fan Yang, Weijun Cao, Xiangle Zhang, Chaochao Shen, Dehui Sun, Liyuan Wang, Hong Tian, Yi Ru, and Tao Feng

Subjects

*AFRICAN swine fever virus, *VIRUS diseases, *AFRICAN swine fever, *CLASSICAL swine fever, *SPLEEN, *SWINE farms

Abstract

African swine fever, one of the major viral diseases of swine, poses an imminent threat to the global pig industry. The high-efficient replication of the causative agent .African swine fever virus (ASFV) in various organs in pigs greatly contributes to the disease. However, how ASFV manipulates the cell population to drive high-efficient replication of the virus in vivo remains unclear. Here, we found that the spleen reveals the most severe pathological manifestation with the highest viral loads among various organs in pigs during ASFV infection. By using single-cell-RNA-sequencing technology and multiple methods, we determined that macrophages and monocytes are the major cell types infected by ASFV in the spleen, showing high viral-load heterogeneity. A rare subpopulation of immature monocytes represents the major population infected at late infection stage. ASFV causes massive death of macrophages, but shifts its infection into these monocytes which significantly arise after the infection. The apoptosis, interferon response, and antigen-presentation capacity are inhibited in these monocytes which benefits prolonged infection of ASFV in vivo. Until now, the role of immature monocytes as an important target by ASFV has been overlooked due to that they do not express classical monocyte marker CD14. The present study indicates that the shift of viral infection from macrophages to the immature monocytes is critical for maintaining prolonged ASFV infection in vivo. This study sheds light on ASFV tropism, replica-tion, and infection dynamics, and elicited immune response, which may instruct future research on antiviral strategies. [ABSTRACT FROM AUTHOR]

Published

2024

7. Pathogenicity and virulence of Marburg virus

Author

Mehedy Hasan Abir, Tanjilur Rahman, Ayan Das, Silvia Naznin Etu, Iqbal Hossain Nafiz, Ahmed Rakib, Saikat Mitra, Talha Bin Emran, Kuldeep Dhama, Ariful Islam, Abolghasem Siyadatpanah, Shafi Mahmud, Bonlgee Kim, and Mohammad Mahmudul Hassan

Subjects

Marburg virus, epidemiology, pathogenicity, transmission dynamics, cellular tropism, virulence, Infectious and parasitic diseases, RC109-216

Abstract

Marburg virus (MARV) has been a major concern since 1967, with two major outbreaks occurring in 1998 and 2004. Infection from MARV results in severe hemorrhagic fever, causing organ dysfunction and death. Exposure to fruit bats in caves and mines, and human-to-human transmission had major roles in the amplification of MARV outbreaks in African countries. The high fatality rate of up to 90% demands the broad study of MARV diseases (MVD) that correspond with MARV infection. Since large outbreaks are rare for MARV, clinical investigations are often inadequate for providing the substantial data necessary to determine the treatment of MARV disease. Therefore, an overall review may contribute to minimizing the limitations associated with future medical research and improve the clinical management of MVD. In this review, we sought to analyze and amalgamate significant information regarding MARV disease epidemics, pathophysiology, and management approaches to provide a better understanding of this deadly virus and the associated infection.

Published

2022

8. SARS‐CoV‐2 cellular tropism and direct multiorgan failure in COVID‐19 patients: Bioinformatic predictions, experimental observations, and open questions.

Author

Valyaeva, Anna A., Zharikova, Anastasia A., and Sheval, Eugene V.

Subjects

*SARS-CoV-2, *COVID-19, *MULTIPLE organ failure, *COVID-19 pandemic

Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2), the virus that causes coronavirus disease 2019 (COVID‐19), has led to an unprecedented public health emergency worldwide. While common cold symptoms are observed in mild cases, COVID‐19 is accompanied by multiorgan failure in severe patients. Organ damage in COVID‐19 patients is partially associated with the indirect effects of SARS‐CoV‐2 infection (e.g., systemic inflammation, hypoxic‐ischemic damage, coagulopathy), but early processes in COVID‐19 patients that trigger a chain of indirect effects are connected with the direct infection of cells by the virus. To understand the virus transmission routes and the reasons for the wide‐spectrum of complications and severe outcomes of COVID‐19, it is important to identify the cells targeted by SARS‐CoV‐2. This review summarizes the major steps of investigation and the most recent findings regarding SARS‐CoV‐2 cellular tropism and the possible connection between the early stages of infection and multiorgan failure in COVID‐19. The SARS‐CoV‐2 pandemic is the first epidemic in which data extracted from single‐cell RNA‐seq (scRNA‐seq) gene expression data sets have been widely used to predict cellular tropism. The analysis presented here indicates that the SARS‐CoV‐2 cellular tropism predictions are accurate enough for estimating the potential susceptibility of different cells to SARS‐CoV‐2 infection; however, it appears that not all susceptible cells may be infected in patients with COVID‐19. [ABSTRACT FROM AUTHOR]

Published

2023

9. Longitudinal analysis of subtype C envelope tropism for memory CD4+ T cell subsets over the first 3 years of untreated HIV-1 infection

Author

Matthew J. Gartner, Paul R. Gorry, Carolin Tumpach, Jingling Zhou, Ashanti Dantanarayana, J. Judy Chang, Thomas A. Angelovich, Paula Ellenberg, Annemarie E. Laumaea, Molati Nonyane, Penny L. Moore, Sharon R. Lewin, Melissa J. Churchill, Jacqueline K. Flynn, and Michael Roche

Subjects

Cellular tropism, CD4+ T cells, Subtype C HIV-1, Coreceptor usage, Envelope, Immunologic diseases. Allergy, RC581-607

Abstract

Abstract Background HIV-1 infects a wide range of CD4+ T cells with different phenotypic properties and differing expression levels of entry coreceptors. We sought to determine the viral tropism of subtype C (C-HIV) Envelope (Env) clones for different CD4+ T cell subsets and whether tropism changes during acute to chronic disease progression. HIV-1 envs were amplified from the plasma of five C-HIV infected women from three untreated time points; less than 2 months, 1-year and 3-years post-infection. Pseudoviruses were generated from Env clones, phenotyped for coreceptor usage and CD4+ T cell subset tropism was measured by flow cytometry. Results A total of 50 C-HIV envs were cloned and screened for functionality in pseudovirus infection assays. Phylogenetic and variable region characteristic analysis demonstrated evolution in envs between time points. We found 45 pseudoviruses were functional and all used CCR5 to mediate entry into NP2/CD4/CCR5 cells. In vitro infection assays showed transitional memory (TM) and effector memory (EM) CD4+ T cells were more frequently infected (median: 46% and 25% of total infected CD4+ T cells respectively) than naïve, stem cell memory, central memory and terminally differentiated cells. This was not due to these subsets contributing a higher proportion of the CD4+ T cell pool, rather these subsets were more susceptible to infection (median: 5.38% EM and 2.15% TM cells infected), consistent with heightened CCR5 expression on EM and TM cells. No inter- or intra-participant changes in CD4+ T cell subset tropism were observed across the three-time points. Conclusions CD4+ T cell subsets that express more CCR5 were more susceptible to infection with C-HIV Envs, suggesting that these may be the major cellular targets during the first 3 years of infection. Moreover, we found that viral tropism for different CD4+ T cell subsets in vitro did not change between Envs cloned from acute to chronic disease stages. Finally, central memory, naïve and stem cell memory CD4+ T cell subsets were susceptible to infection, albeit inefficiently by Envs from all time-points, suggesting that direct infection of these cells may help establish the latent reservoir early in infection.

Published

2020

10. Molecular Mechanism of Porcine Epidemic Diarrhea Virus Cell Tropism

Author

Zhiwei Li, Zhiqian Ma, Linfang Dong, Ting Yang, Yang Li, Dian Jiao, Weiguo Han, Haixue Zheng, and Shuqi Xiao

Subjects

spike, cellular tropism, coronavirus, porcine epidemic diarrhea virus, reverse genetic analysis, Microbiology, QR1-502

Abstract

ABSTRACT In the 21st century, several human and swine coronaviruses (CoVs) have emerged suddenly and caused great damage to people's lives and property. The porcine epidemic diarrhea virus (PEDV), leading to enormous economic losses to the pork industry and remains a large challenge. PEDV showed extensive cell tropism, and we cannot ignore the potential risk of cross-species transmission. However, the mechanism of adaptation and cell tropism of PEDV remains largely unknown and in vitro isolation of PEDV remains a huge challenge, which seriously impedes the development of vaccines. In this study, we confirmed that the spike (S) protein determines the adaptability of PEDV to monkey Vero cells and LLC-PK1 porcine cells, and isolated exchange of S1 and S2 subunits of adaptive strains did not make PEDV adapt to cells. Further, we found that the cellular adaptability of rCH/SX/2016-SHNXP depends on S1 and the first half of S2 (S3), and the 803L and 976H of the S2 subunit are critical for rCH/SX/2016-S1HNXP+S3HNXP adaptation to Vero cells. These findings highlight the decisive role of PEDV S protein in cell tropism and the potential role of coronaviruses S protein in cross-species transmissibility. Besides, our work also provides some different insight into finding PEDV receptors and developing PEDV and other coronaviruses vaccines. IMPORTANCE CoVs can spill from an animal reservoir into a naive host to cause diseases in humans or domestic animals. PEDV results in high mortality in piglets, which has caused immense economic losses in the pork industry. Virus isolation is the first step in studying viral pathogenesis and developing effective vaccines. However, the molecular mechanism of PEDV cell tropism is largely unknown, and isolation of endemic PEDV strains remains a major challenge. This study confirmed that the S gene is the decisive gene of PEDV adaptability to monkey Vero cells and porcine LLC-PK1 cells by the PEDV reverse genetics system. Isolated exchange of S1 and S2 of adaptive strains did not make PEDV adapt to cells, and the 803L and 976H of S2 subunit are critical for rCH/SX/2016-S1HNXP+S3HNXP adaptation to Vero cells. These results illustrate the decisive role of PEDV S protein in cell tropism and highlight the potential role of coronaviruses S protein in cross-species transmissibility. Besides, our finding also provides some unique insight into identifying PEDV functional receptors and has guiding significance for developing PEDV and other coronavirus vaccines.

Published

2022

11. Tilapia lake virus immunoglobulin G (TiLV IgG) antibody: Immunohistochemistry application reveals cellular tropism of TiLV infection.

Author

Piewbang, Chutchai, Tattiyapong, Puntanat, Techangamsuwan, Somporn, and Surachetpong, Win

Subjects

*IMMUNOGLOBULIN G, *TILAPIA, *MOZAMBIQUE tilapia, *VIRAL tropism, *IMMUNOGLOBULINS, *TROPISMS, *IMMUNOHISTOCHEMISTRY

Abstract

Tilapia lake virus (TiLV) is a notable contagious agent that causes massive economic losses in the tilapia industry globally. Evaluations of the histological changes associated with TiLV infection are not only crucial for diagnosis, but also to gain an understanding of the disease. We therefore synthesized a rabbit polyclonal immunoglobulin G antibody against TiLV and developed an immunohistochemical (IHC) procedure to detect TiLV localization in the tissues of infected fish for comparison with in situ hybridization (ISH) testing. A total of four different sample cohorts derived from TiLV-infected fish was used to validate the IHC procedure. The TiLV IHC application was successfully developed and facilitated nuclear and cytoplasmic immunolabelling in the intestines, gills, brain, liver, pancreas, spleen, and kidneys that corresponded with the ISH results. Apart from the ISH results, TiLV-IHC signals were clearly evident in the endothelial cells of various organs, the circulating leukocytes in the blood vessels, and the areas of tissue inflammation. Among the tested sample cohorts, the intestines, gills, and brain had IHC-positive signals, highlighting the possibility of these organs as common TiLV targets. Immunological staining pattern and distribution corresponded with the TiLV viral load but not the inoculation route. The TiLV IHC was also capable of detecting TiLV infection in the experimentally challenged ornamental cichlids, Mozambique tilapia, giant gourami, and naturally infected tilapia, indicating the dynamic range of IHC for TiLV detection. Overall, our study delivers the first IHC platform to detect TiLV infection and provides novel evidence of cellular tropism during TiLV infection. Our findings also reveal the TiLV distribution pattern of infected fish and propose the endotheliotropism and lymphotropism of this virus, which requires further elaboration. Importantly, this new IHC procedure could be applied to study the pathogenesis and interaction of TiLV in future research. • A polyclonal rabbit immunoglobulin G (IgG) against tilapia lake virus (TiLV) is synthesized. • Immunohistochemistry (IHC) to detect the TiLV infection is developed and optimized with variations in the antigen retrieval methods and primary antibody concentration. • The optimized IHC is compared with in situ hybridization (ISH) technique and validated by performing in different sample cohorts. • The developed IHC gains high affinity for TiLV infection detection and the IHC results indicates novel cellular tropism of the TiLV. [ABSTRACT FROM AUTHOR]

Published

2021

12. 日本脑炎病毒感染仔猪扁桃体的细胞嗜性研究.

Author

张秋婷, 关如婷, 潘俊慧, 杨兴淼, 谢盛达, 余都, 王学飞, and 曹瑞兵

Subjects

*ANTIGEN presenting cells, *JAPANESE encephalitis viruses, *LYMPHOID tissue, *VIRAL tropism, *PIGLETS, *DENDRITIC cells, *TONSILS

Abstract

[Objectives]The experiment aimed to identify the cellular tropism of Japanese encephalitis virus(JEV)in the pig tonsils. [Methods] In this study, three healthy commercial piglets with negative JEV antigen and antibody were inoculated with 2× 107 TCID50. mL-1 JEV NJ2008 strain per piglet by injection intravenously and intradermally in the neck region, and one control piglet was injected with 2 mL saline. The piglets were kept in isolation for one week, during which the samples of nose swab, blood and tonsil tissue were collected. We detected the virus in the samples by qPCR, immunohistochemistry and immunofluorescence. [Results]The temperatures of all three piglets after inoculated poison were normal. No obvious clinical symptoms were observed in all experimental piglets during 7 days. Three piglets inoculated with JEV NJ2008 showed viremia for 2 days from the day of inoculation, and JEV could be detected from nasal swabs collected for 7 days. JEV mainly infected the soft palatal tonsils of pigs. No JEV positive cells were found in the pharyngeal tonsils, tube tonsils and parapharyngeal tonsils of infected piglets. In the soft palatal tonsil of pigs, JEV infected cells were mainly distributed around the lymphoid follicles and in the diffuse lymphoid tissues. Most of JEV antigen positive cells were irregular in shape, large in nucleus and light in color, with the characteristics of macrophages or dendritic cells. Then through the colocalization of CD11b, CD163 and MHC, cell surface markers and virus antigens, JEV positive cells were identified as mainly antigen presenting cell, such as macrophages and dendritic cells. [Conclusions]In this experiment, we found that in the early stage of JEV infection within one week, the tonsils of piglets showed a persistent infection. The cellular tropism of JEV in pig tonsil were mainly macrophages and dendritic cells. These results pave the way for studying the mechanism of persistent infection of JEV in tonsil. [ABSTRACT FROM AUTHOR]

Published

2021

13. Longitudinal analysis of subtype C envelope tropism for memory CD4+ T cell subsets over the first 3 years of untreated HIV-1 infection.

Author

Gartner, Matthew J., Gorry, Paul R., Tumpach, Carolin, Zhou, Jingling, Dantanarayana, Ashanti, Chang, J. Judy, Angelovich, Thomas A., Ellenberg, Paula, Laumaea, Annemarie E., Nonyane, Molati, Moore, Penny L., Lewin, Sharon R., Churchill, Melissa J., Flynn, Jacqueline K., and Roche, Michael

Subjects

VIRAL tropism, T cells, HIV, TROPISMS, STEM cells, ACUTE diseases, INFECTION

Abstract

Background: HIV-1 infects a wide range of CD4+ T cells with different phenotypic properties and differing expression levels of entry coreceptors. We sought to determine the viral tropism of subtype C (C-HIV) Envelope (Env) clones for different CD4+ T cell subsets and whether tropism changes during acute to chronic disease progression. HIV-1 envs were amplified from the plasma of five C-HIV infected women from three untreated time points; less than 2 months, 1-year and 3-years post-infection. Pseudoviruses were generated from Env clones, phenotyped for coreceptor usage and CD4+ T cell subset tropism was measured by flow cytometry. Results: A total of 50 C-HIV envs were cloned and screened for functionality in pseudovirus infection assays. Phylogenetic and variable region characteristic analysis demonstrated evolution in envs between time points. We found 45 pseudoviruses were functional and all used CCR5 to mediate entry into NP2/CD4/CCR5 cells. In vitro infection assays showed transitional memory (TM) and effector memory (EM) CD4+ T cells were more frequently infected (median: 46% and 25% of total infected CD4+ T cells respectively) than naïve, stem cell memory, central memory and terminally differentiated cells. This was not due to these subsets contributing a higher proportion of the CD4+ T cell pool, rather these subsets were more susceptible to infection (median: 5.38% EM and 2.15% TM cells infected), consistent with heightened CCR5 expression on EM and TM cells. No inter- or intra-participant changes in CD4+ T cell subset tropism were observed across the three-time points. Conclusions: CD4+ T cell subsets that express more CCR5 were more susceptible to infection with C-HIV Envs, suggesting that these may be the major cellular targets during the first 3 years of infection. Moreover, we found that viral tropism for different CD4+ T cell subsets in vitro did not change between Envs cloned from acute to chronic disease stages. Finally, central memory, naïve and stem cell memory CD4+ T cell subsets were susceptible to infection, albeit inefficiently by Envs from all time-points, suggesting that direct infection of these cells may help establish the latent reservoir early in infection. [ABSTRACT FROM AUTHOR]

Published

2020

14. 2014 年~2019 年PRRSV 主要流行毒株在我国的变化.

Author

张洪亮, 张文立, 许浒, 宋帅杰, 赵静, 相丽润, 冷超粮, 李真, 刘春晓, 汤艳东, 陈家锃, 彭金美, 王倩, 安同庆, 童光志, 蔡雪辉, and 田志军

Abstract

Copyright of Chinese Journal of Preventive Veterinary Medicine / Zhongguo Yufang Shouyi Xuebao is the property of Chinese Journal of Preventive Veterinary Medicine Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

15. The nsp2 Hypervariable Region of Porcine Reproductive and Respiratory Syndrome Virus Strain JXwn06 Is Associated with Viral Cellular Tropism to Primary Porcine Alveolar Macrophages.

Author

Jiangwei Song, Peng Gao, Can Kong, Lei Zhou, Xinna Ge, Xin Guo, Jun Han, and Hanchun Yang

Subjects

*HYPERVARIABLE regions, *VIRAL tropism, *ALVEOLAR macrophages, *PORCINE reproductive & respiratory syndrome, *RNA synthesis

Abstract

Porcine reproductive and respiratory syndrome virus (PRRSV) poses a major threat to global pork production and has been notorious for its rapid genetic evolution in the field. The nonstructural protein 2 (nsp2) replicase protein represents the fastest evolving region of PRRSV, but the underlying biological significance has remained poorly understood. By deletion mutagenesis, we discovered that the nsp2 hypervariable region plays an important role in controlling the balance of genomic mRNA and a subset of subgenomic mRNAs. More significantly, we revealed an unexpected link of the nsp2 hypervariable region to viral tropism. Specifically, a mutant of the Chinese highly pathogenic PRRSV strain JXwn06 carrying a deletion spanning nsp2 amino acids 323 to 521 (nsp2Δ323--521) in its hypervariable region was found to lose infectivity in primary porcine alveolar macrophages (PAMs), although it could replicate relatively efficiently in the supporting cell line MARC-145. Consequently, this mutant failed to establish an infection in piglets. Further dissection of the viral life cycle revealed that the mutant had a defect (or defects) lying in the steps between virus penetration and negative-stranded RNA synthesis. Taken together, our results reveal novel functions of nsp2 in the PRRSV life cycle and provide important insights into the mechanisms of PRRSV RNA synthesis and cellular tropism. IMPORTANCE The PRRSV nsp2 replicase protein undergoes rapid and broad genetic variations in its middle region in the field, but the underlying significance has remained enigmatic. Here, we demonstrate that the nsp2 hypervariable region not only plays an important regulatory role in maintaining the balance of different viral mRNA species but also regulates PRRSV tropism to primary PAMs. Our results reveal novel functions for PRRSV nsp2 and have important implications for understanding the mechanisms of PRRSV RNA synthesis and cellular tropism. [ABSTRACT FROM AUTHOR]

Published

2019

16. hCD46 receptor is not required for measles vaccine Schwarz strain replication in vivo: Type-I IFN is the species barrier in mice.

Author

Mura, M., Ruffié, C., Billon-Denis, E., Combredet, C., Tournier, J.N., and Tangy, F.

Subjects

*MEASLES virus, *TROPISMS, *IMMUNOGENETICS, *TYPE I interferons, *LABORATORY mice

Abstract

Abstract Measles virus has been successfully attenuated on chicken embryo cells to obtain a highly efficient and safe live attenuated vaccine, administered thus far to billions of children. Measles virus attenuation has long been described to involve a modification of cellular tropism with the use of human CD46 ubiquitous receptor. Nevertheless, the use of this receptor in vivo is not obvious. In this study we use four different mouse models to decipher the respective part of hCD46 receptor and type-I interferon response in measles host restriction. We observed that only type-I interferon restricts viral replication of attenuated MV Schwarz strain in mice, independently of the presence of hCD46 receptor. By comparing measles virus immunogenicity in the different models, we confirmed that there was no impact on the absence of this receptor on the immune response. Therefore, we propose to simplify the mouse model. [ABSTRACT FROM AUTHOR]

Published

2018

17. The S2 Subunit of Infectious Bronchitis Virus Beaudette Is a Determinant of Cellular Tropism.

Author

Bickerton, Erica, Maier, Helena J., Stevenson-Leggett, Phoebe, Armesto, Maria, and Britton, Paul

Subjects

*BRONCHITIS, *VIRAL tropism, *GLYCOPROTEINS, *RECOMBINANT viruses, *MICROBIAL virulence

Abstract

The spike (S) glycoprotein of the avian gammacoronavirus infectious bronchitis virus (IBV) is comprised of two subunits (S1 and S2), has a role in virulence in vivo, and is responsible for cellular tropism in vitro. We have previously demonstrated that replacement of the S glycoprotein ectodomain from the avirulent Beaudette strain of IBV with the corresponding region from the virulent M41-CK strain resulted in a recombinant virus, BeauR-M41(S), with the in vitro cell tropism of M41-CK. The IBV Beaudette strain is able to replicate in both primary chick kidney cells and Vero cells, whereas the IBV M41-CK strain replicates in primary cells only. In order to investigate the region of the IBV S responsible for growth in Vero cells, we generated a series of recombinant IBVs expressing chimeric S glycoproteins, consisting of regions from the Beaudette and M41-CK S gene sequences, within the genomic background of Beaudette. The S2, but not the S1, subunit of the Beaudette S was found to confer the ability to grow in Vero cells. Various combinations of Beaudette-specific amino acids were introduced into the S2 subunit of M41 to determine the minimum requirement to confer tropism for growth in Vero cells. The ability of IBV to grow and produce infectious progeny virus in Vero cells was subsequently narrowed down to just 3 amino acids surrounding the S2= cleavage site. Conversely, swapping of the 3 Beaudette-associated amino acids with the corresponding ones from M41 was sufficient to abolish Beaudette growth in Vero cells. [ABSTRACT FROM AUTHOR]

Published

2018

18. Epstein-Barr Virus Type 2 Infects T Cells in Healthy Kenyan Children.

Author

Coleman, Carrie B., Daud, Ibrahim I., Ogolla, Sidney O., Ritchie, Julie A., Smith, Nicholas A., Sumba, Peter O., Dent, Arlene E., and Rochford, Rosemary

Subjects

*CHILDREN, *EPSTEIN-Barr virus, *T cells, *BREAST milk, *SALIVA, *MOTHERS, *DISEASES, *COLLECTION & preservation of biological specimens, *DNA, *EPSTEIN-Barr virus diseases, *LONGITUDINAL method, *RESEARCH funding, *VIRAL physiology, *DISEASE prevalence, *PHYSIOLOGY, *DIAGNOSIS

Abstract

Background: The 2 strains of Epstein-Barr virus (EBV), EBV type 1 (EBV-1) and EBV-2, differ in latency genes, suggesting that they use distinct mechanisms to establish latency. We previously reported that EBV-2 infects T cells in vitro. In this study, we tested the possibility that EBV-2 infects T cells in vivo.Methods: Purified T-cell fractions isolated from children positive for EBV-1 or EBV-2 and their mothers were examined for the presence of EBV and for EBV type.Results: We detected EBV-2 in all T-cell samples obtained from EBV-2-infected children at 12 months of age, with some children retaining EBV-2-positive T cells through 24 months of age, suggesting that EBV-2 persists in T cells. We were unable to detect EBV-2 in T-cell samples from mothers but could detect EBV-2 in samples of their breast milk and saliva.Conclusions: These data suggest that EBV-2 uses T cells as an additional latency reservoir but that, over time, the frequency of infected T cells may drop below detectable levels. Alternatively, EBV-2 may establish a prolonged transient infection in the T-cell compartment. Collectively, these novel findings demonstrate that EBV-2 infects T cells in vivo and suggest EBV-2 may use the T-cell compartment to establish latency. [ABSTRACT FROM AUTHOR]

Published

2017

19. Equine Arteritis Virus Has Specific Tropism for Stromal Cells and CD8+ T and CD21+ B Lymphocytes but Not for Glandular Epithelium at the Primary Site of Persistent Infection in the Stallion Reproductive Tract.

Author

Carossino, Mariano, Loynachan, Alan T., Canisso, Igor F., Cook, R. Frank, Campos, Juliana R., Nam, Bora, Yun Young Go, Squires, Edward L., Troedsson, Mats H. T., Swerczek, Thomas, Del Piero, Fabio, Bailey, Ernest, Timoney, Peter J., and Balasuriya, Udeni B. R.

Subjects

*ARTERITIS, *STALLIONS, *VIRAL tropism, *HORSE diseases, *IMMUNOFLUORESCENCE, *IMMUNOHISTOCHEMISTRY, *DISEASES

Abstract

Equine arteritis virus (EAV) has a global impact on the equine industry as the causative agent of equine viral arteritis (EVA), a respiratory, systemic, and reproductive disease of equids. A distinctive feature of EAV infection is that it establishes long-term persistent infection in 10 to 70% of infected stallions (carriers). In these stallions, EAV is detectable only in the reproductive tract, and viral persistence occurs despite the presence of high serum neutralizing antibody titers. Carrier stallions constitute the natural reservoir of the virus as they continuously shed EAV in their semen. Although the accessory sex glands have been implicated as the primary sites of EAV persistence, the viral host cell tropism and whether viral replication in carrier stallions occurs in the presence or absence of host inflammatory responses remain unknown. In this study, dual immunohistochemical and immunofluorescence techniques were employed to unequivocally demonstrate that the ampulla is the main EAV tissue reservoir rather than immunologically privileged tissues (i.e., testes). Furthermore, we demonstrate that EAV has specific tropism for stromal cells (fibrocytes and possibly tissue macrophages) and CD8+ T and CD21+ B lymphocytes but not glandular epithelium. Persistent EAV infection is associated with moderate, multifocal lymphoplasmacytic ampullitis comprising clusters of B (CD21+) lymphocytes and significant infiltration of T (CD3+, CD4+, CD8+, and CD25+) lymphocytes, tissue macrophages, and dendritic cells (Iba-1+ and CD83+), with a small number of tissue macrophages expressing CD163 and CD204 scavenger receptors. This study suggests that EAV employs complex immune eva- sion mechanisms that warrant further investigation. [ABSTRACT FROM AUTHOR]

Published

2017

20. The conserved L1089 in the S2 subunit of avian infectious bronchitis virus determines viral kidney tropism by disrupting virus-cell fusion.

Author

Li, Shu-Yun, Shen, Yu-Xi, Xiang, Xue-Lian, Li, Yong-Xin, Li, Nian-Ling, Wang, An-Dong, Cui, Min, Han, Xin-Feng, Huang, Yong, and Xia, Jing

Subjects

*VIRAL tropism, *AVIAN infectious bronchitis virus, *CORONAVIRUSES, *AMINO acid sequence, *VACCINE development

Abstract

The virulence of avian gamma-coronavirus infectious bronchitis viruses (IBV) for the kidney has led to high mortality in dominant-genotype isolations, but the key sites of viral protein that determine kidney tropism are still not fully clear. In this study, the amino acid sequences of the S2 subunit of IBVs with opposing adaptivity to chicken embryonic kidney cells (CEKs) were aligned to identify putative sites associated with differences in viral adaptability. The S2 gene and the putative sites of the non-adapted CN strain were introduced into the CEKs-adapted SczyC30 strain to rescue seven mutants. Analysis of growth characteristics showed that the replacement of the entire S2 subunit and the L1089I substitution in the S2 subunit entirely abolished the proliferation of recombinant IBV in CEKs as well as in primary chicken oviduct epithelial cells. Pathogenicity assays also support the decisive role of this L1089 for viral nephrotropism, and this non-nephrotropic L1089I substitution significantly attenuates pathogenicity. Analysis of the putative cause of proliferation inhibition in CEKs suggests that the L1089I substitution affects neither virus attachment nor endocytosis, but instead fails to form double-membrane vesicles to initiate the viral replication and translation. Position 1089 of the IBV S2 subunit is conservative and predicted to lie in heptad repeat 2 domains. It is therefore reasonable to conclude that the L1089I substitution alters the nephrotropism of parent strain by affecting virus-cell fusion. These findings provide crucial insights into the adaptive mechanisms of IBV and have applications in the development of vaccines and drugs against IB. • The S2 subunit is responsible for IBV tropism to CEKs and kidneys. • The L1089I substitution abolished the IBV tropism to CEKs and kidneys. • The L1089I substitution significantly attenuated pathogenicity. • The L1089 was predicted to lie in HR2 domains on the S2 subunit. • The L1089I substitution affected virus-cell fusion. [ABSTRACT FROM AUTHOR]

Published

2023

21. Genetic shift of env V3 loop viral sequences in patients with HIV-associated neurocognitive disorder during antiretroviral therapy.

Author

Eggers, Christian, Müller, Oliver, Thordsen, Ingo, Schreiber, Michael, and Methner, Axel

Subjects

*VIRAL envelope proteins, *GENETICS of virus diseases, *NUCLEOTIDE sequence, *ANTIRETROVIRAL agents, *COGNITION disorder patients, *CEREBROSPINAL fluid, *VIRAL population genetics, *HIV-positive persons, *PHENOTYPES

Abstract

The development of human immunodeficiency virus type 1 (HIV)-associated neurocognitive disorder (HAND) involves the adaptation of viral sequences coding for the V3 loop of the env protein. The plasma and cerebrospinal fluid (CSF) may contain viral populations from various cellular sources and with differing pathogenicity. Combination antiretroviral therapy (cART) may alter the relative abundance of these viral populations, leading to a genetic shift. We characterized plasma and CNS viral populations prior to and during cART and relate the findings to viral elimination kinetics and the clinical phenotype. Longitudinal plasma and CSF samples of five chronically infected HIV patients, four of whom had HAND, and one seroconverter were analyzed for V3 sequences by RT-PCR and sequence analysis. In the chronically infected patients, pre-cART plasma and CSF viral sequences were different irrespective of viral elimination kinetics and clinical phenotype. cART induced replacement of plasma viral populations in all subjects. CSF viral populations underwent a clear genetic shift in some patients but remained stable in others. This was not dependent on the presence of HAND. The genetic shift of CSF V3 sequences was absent in the two subjects whose CSF viral load initially increased during cART. In one patient, pre- and post-treatment CSF sequences were closely related to the post-treatment plasma sequences, suggesting a common cellular source. We found heterogeneous patterns of genetic compartmentalization and genetic shift over time. Although these did not closely match viral elimination kinetics and clinical phenotype, the results imply different patterns of the dynamics and relative contribution of compartment-specific virus populations in chronic HIV infection. [ABSTRACT FROM AUTHOR]

Published

2013

22. Affinofile profiling: How efficiency of CD4/CCR5 usage impacts the biological and pathogenic phenotype of HIV

Author

Chikere, Kelechi, Chou, Tom, Gorry, Paul R., and Lee, Benhur

Subjects

*HIV, *VIRAL receptors, *CD4 antigen, *CHEMOKINE receptors, *VIRAL envelope proteins, *HIV infection transmission, *QUANTITATIVE research, *PATHOLOGICAL physiology

Abstract

Abstract: HIV-1 envelope (Env) uses CD4 and a coreceptor (CCR5 and/or CXCR4) for viral entry. The efficiency of receptor/coreceptor mediated entry has important implications for HIV pathogenesis and transmission. The advent of CCR5 inhibitors in clinical use also underscores the need for quantitative and predictive tools that can guide therapeutic management. Historically, measuring the efficiency of CD4/CCR5 mediated HIV entry has relied on surrogate and relatively slow throughput assays that cannot adequately capture the full spectrum of Env phenotypes. In this review, we discuss the details of the Affinofile receptor affinity profiling system that has provided a quantitative and higher throughput method to characterize viral entry efficiency as a function of CD4 and CCR5 expression levels. We will then review how the Affinofile system has been used to reveal the distinct pathophysiological properties associated with Env entry phenotypes and discuss potential shortcomings of the current system. [Copyright &y& Elsevier]

Published

2013

23. Age-Dependent Progression of SARS-CoV-2 Infection in Syrian Hamsters.

Author

Osterrieder, Nikolaus, Bertzbach, Luca D., Dietert, Kristina, Abdelgawad, Azza, Vladimirova, Daria, Kunec, Dusan, Hoffmann, Donata, Beer, Martin, Gruber, Achim D., and Trimpert, Jakob

Subjects

*GOLDEN hamster, *SARS-CoV-2, *HAMSTERS, *RESPIRATORY diseases, *COVID-19, *VACCINE development, *VIRAL antibodies

Abstract

In late 2019, an outbreak of a severe respiratory disease caused by an emerging coronavirus, SARS-CoV-2, resulted in high morbidity and mortality in infected humans. Complete understanding of COVID-19, the multi-faceted disease caused by SARS-CoV-2, requires suitable small animal models, as does the development and evaluation of vaccines and antivirals. Since age-dependent differences of COVID-19 were identified in humans, we compared the course of SARS-CoV-2 infection in young and aged Syrian hamsters. We show that virus replication in the upper and lower respiratory tract was independent of the age of the animals. However, older hamsters exhibited more pronounced and consistent weight loss. In situ hybridization in the lungs identified viral RNA in bronchial epithelium, alveolar epithelial cells type I and II, and macrophages. Histopathology revealed clear age-dependent differences, with young hamsters launching earlier and stronger immune cell influx than aged hamsters. The latter developed conspicuous alveolar and perivascular edema, indicating vascular leakage. In contrast, we observed rapid lung recovery at day 14 after infection only in young hamsters. We propose that comparative assessment in young versus aged hamsters of SARS-CoV-2 vaccines and treatments may yield valuable information, as this small-animal model appears to mirror age-dependent differences in human patients. [ABSTRACT FROM AUTHOR]

Published

2020

24. Evidence and possible mechanisms of rare maternal-fetal transmission of SARS-CoV-2.

Author

Egloff, Charles, Vauloup-Fellous, Christelle, Picone, Olivier, Mandelbrot, Laurent, and Roques, Pierre

Subjects

*SARS-CoV-2, *SECOND trimester of pregnancy, *FIRST trimester of pregnancy, *COVID-19

Abstract

While SARS-CoV-2 infection has spread rapidly worldwide, data remains scarce about the natural history of infection in pregnant women and the risk of mother-to-fetal transmission. Current data indicates that viral RNA levels in maternal blood are low and there is no evidence of placental infection with SARS-CoV-2. Published reports to date suggest that perinatal transmission of SARSCoV- 2 can occur but is rare. Among 179 newborns tested for SARS-CoV2 at birth from mothers with COVID-19, transmission was suspected in 8 cases, 5 with positive nasopharyngeal SARS-CoV-2 RT-PCR and 3 with SARS-CoV-2 IgM. However, these cases arise from maternal infection close to childbirth and there are no information about exposition during first or second trimester of pregnancy. Welldesigned prospective cohort studies with rigorous judgement criteria are needed to determine the incidence and risk factors for perinatal transmission of SARS-CoV-2. [ABSTRACT FROM AUTHOR]

Published

2020

25. [Mother to Child SARS-CoV-2 Transmission: Fact or Fantasy].

Author

Egloff C, Picone O, Vauloup-Fellous C, and Roques P

Subjects

COVID-19, Coronavirus Infections virology, Female, Fetal Diseases virology, Humans, Infant, Newborn, Pandemics, Placenta virology, Pneumonia, Viral virology, Pregnancy, SARS-CoV-2, Viral Load, Viral Tropism, Betacoronavirus physiology, Coronavirus Infections transmission, Infectious Disease Transmission, Vertical, Pneumonia, Viral transmission, Pregnancy Complications, Infectious

Abstract

The emerging coronavirus called SARS-CoV-2 has spread rapidly around the world. Responsible for severe pneumonitis (Covid-19), there are also doubts concerning a possible mother-to-fetal transmission of this virus. Current data are patchy and obtained from small groups of patients. They tend to support the idea that the mother-to-fetal transmission of SARS-CoV-2 is very rare, but the period between infection and childbirth was often very short and may not allow sufficient replication to consider transplacental passage. Here, we reviewed the existing virological data and those remaining to explore. Thus, the natural history of SARS-CoV-2 infection in pregnant women and the risk of transmission in utero is not yet fully understood and defined. Four months from the emergence of this virus, it is therefore reasonable to wait for the results of specific studies on larger cohorts which, to be conclusive, must meet the best scientific criteria.

Published

2020

26. Distinct Expression Patterns of AAV8 Vectors with Broadly Active Promoters from Subretinal Injections of Neonatal Mouse Eyes at Two Different Ages.

Author

Xiong W and Cepko C

Subjects

Animals, Animals, Newborn, Genetic Vectors administration & dosage, Genetic Vectors genetics, Green Fluorescent Proteins metabolism, HEK293 Cells, Humans, Immunohistochemistry, Injections, Mice, Photoreceptor Cells, Vertebrate metabolism, Retinal Ganglion Cells metabolism, Time Factors, Transduction, Genetic, Dependovirus genetics, Gene Expression Profiling, Green Fluorescent Proteins genetics, Promoter Regions, Genetic genetics, Retina metabolism

Abstract

The retinal expression patterns were analyzed following the injection of serotype 8 adeno-associated virus (AAV8) vectors that utilize two broadly active and commonly used sets of transcription regulatory sequences. These include the human cytomegalovirus (CMV) immediate early (IE) enhancer/promoter and the hybrid CAG element (also known as CAGGS or CBA) composed of a partial human CMV IE enhancer and the chicken β-actin promoter and intron. Subretinal delivery to postnatal day 0 (P0) or 6 (P6) mouse eyes resulted in efficient labeling of retinal cells, but with very distinct patterns. With P0 delivery, AAV8-CMV-GFP selectively labelled photoreceptors, while AAV8-CAG-GFP efficiently labeled both outer and inner retinal neurons, including photoreceptors, horizontal cells, amacrine cells and retinal ganglion cells. With P6 delivery, both vectors led to efficient labeling of photoreceptors and Müller glia cells, but not of inner retinal neurons. Our results suggest that the cell types that express the genes encoded by subretinally delivered AAV8 vectors are determined by both the timing of the injection and the regulatory sequences.

Published

2016